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Expanded Representation of EC Numbers in Pathway Tools. Suzanne Paley March 2013. Motivations. EC: Enzyme Commission system for identifying enzyme functionality Multifunctional enzyme should have different EC# for each function Old Pathway Tools representation :
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Expanded Representation of EC Numbers in Pathway Tools Suzanne Paley March 2013
Motivations • EC: Enzyme Commission system for identifying enzyme functionality • Multifunctional enzyme should have different EC# for each function • Old Pathway Tools representation: • Assumption: single function of an enzyme = single reaction • Each reaction was assigned a single EC# • An enzyme has EC#s derived from all reactions it catalyzes • Problems: • Enzyme Commission can assign multiple EC#s to same reaction due to different cellular roles, different substrate specificities, different cofactors, etc. • A single EC# can refer to multiple reactions due to substrate non-specificity, sub-reactions, etc. • 1:1 mapping between EC#s and reactions was increasingly causing problems
New Representation (v. 16.5) • Reaction can have multiple EC#s • New EC-Numbers database • Object created for every EC# (and every EC class) • Contains name, synonyms, comments, citations from Enzyme Commission • Maintained byMetaCyc curators, loaded by every PGDB • Reaction object in a PGDB points to one or more EC# objects in EC-Numbers database • Link to EC# can be annotated as an “official” EC reaction • Official means it is part of the EC# definition from the Enzyme Commission • There can be additional “unofficial” reactions associated with an EC#, e.g. for alternate substrates, specific substrates, etc. • MetaCyc contains every EC reaction, other PGDBs contain a subset • Non-backwards-compatible change
Associating EC# With Enzyme • Enzymes not directly linked to EC#s – EC#s are inferred from reactions they catalyze • An enzyme must catalyze all “official” EC reactions for a given EC# in order to be associated w/ that EC# • May or may not catalyze “unofficial” EC reactions • If an enzyme catalyzes multiple reactions, it is preferentially associated with EC# that covers all the reactions, rather than EC#s of individual reactions
Example: 1.11.1.6/1.11.1.21 • 1.11.1.6 -- catalase • 2H2O2 -> 2 H2O + O2 • 1.11.1.21 – catalase-peroxidase • 2H2O2 -> 2 H2O + O2 • 2nd reaction uses generic electron acceptor • Catalase reaction assigned both EC#s • katE only catalyzes first reaction, inferred EC 1.11.1.6 • katG catalyzes both reactions, inferred EC 1.11.1.21, but not 1.11.1.6
Other Changes: Enzyme Kinetic Data • Kinetic parameters Km, kcat, Vmax, specific activity associated with enzymatic-reaction • Km also associated with particular substrate in enzymatic-reaction • Recent change: Now all parameters are also associated with substrate in enzymatic-reaction • Enables us to compute kcat/Km (catalytic activity) • Developed program to infer appropriate substrate for 400+ kinetic data values previously entered w/o substrate in EcoCyc and MetaCyc